US4495651A - Broadcast receiver comprising an entirely electronic control device - Google Patents

Broadcast receiver comprising an entirely electronic control device Download PDF

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US4495651A
US4495651A US06/446,891 US44689182A US4495651A US 4495651 A US4495651 A US 4495651A US 44689182 A US44689182 A US 44689182A US 4495651 A US4495651 A US 4495651A
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Prior art keywords
receiver
control
output
whose
input
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Denis Froeliger
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D'ELECTRONIQUE INDUSTRIELLE D'ELBEUF- ELINDEL Ste
D ELECTRONIQUE INDUSTRIELLE D ELBEUF ELINDEL Ste
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D ELECTRONIQUE INDUSTRIELLE D ELBEUF ELINDEL Ste
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03JTUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
    • H03J7/00Automatic frequency control; Automatic scanning over a band of frequencies
    • H03J7/18Automatic scanning over a band of frequencies
    • H03J7/20Automatic scanning over a band of frequencies where the scanning is accomplished by varying the electrical characteristics of a non-mechanically adjustable element
    • H03J7/28Automatic scanning over a band of frequencies where the scanning is accomplished by varying the electrical characteristics of a non-mechanically adjustable element using counters or frequency dividers
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K17/00Electronic switching or gating, i.e. not by contact-making and –breaking
    • H03K17/94Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the way in which the control signals are generated
    • H03K17/945Proximity switches
    • H03K17/955Proximity switches using a capacitive detector
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/06Receivers
    • H04B1/08Constructional details, e.g. cabinet
    • H04B1/082Constructional details, e.g. cabinet to be used in vehicles
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/06Receivers
    • H04B1/16Circuits

Definitions

  • the present invention relates to broadcast receivers, that is to say receivers of broadcast electromagnetic waves modulated in amplitude or in frequency on emission by a sound or audio-frequency signal, and more especially to the arrangement of their control devices. It relates, more particularly, to so-called “radio” receivers and especially those intended to fitted to motor vehicles, called “car radios” and to the control devices thereof, free from any mechanical component.
  • the control devices comprise, more especially, an "on-off” switch which is either coupled to the shaft controlling the volume control potentiometer, which must be rotated, or controlled by a push-button, a volume control potentiometer with rotary or rectilinear translation shaft, a reactive element for tuning the resonant radio-frequency circuits and the local oscillator comprising several simultaneously variable reactances, such as multiple tuning capacitors, fixed to the same shaft or inductances with axial mobile cores and mechanically coupled control, and rotary wave range switches with push-buttons or keys. All these elements, as well as the tuning indicator with its dial, generally have a mechanical control and those with rotary shafts are manipulated by the user by means of rotary knobs which extend from the front face turned towards him.
  • variable reactance elements such as volume or tuning voltage regulating potentiometers, when the variable reactance elements are formed by diodes (“varicap”) whose capacity is variable as a function of their reverse biasing voltage, and multiple rotary capacitors or the mobile core coils are sources of mechanical and/or electrical (false contact) breakdowns and are subject to wear.
  • variable reactance elements are formed by diodes (“varicap”) whose capacity is variable as a function of their reverse biasing voltage
  • multiple rotary capacitors or the mobile core coils are sources of mechanical and/or electrical (false contact) breakdowns and are subject to wear.
  • the receivers which are intended to be mounted on board motor vehicles so as to be accessible to the driver, whose case may be inserted in an opening formed in the dashboard, for example, the projecting parts which extend from the front face or facade of the receiver, such as rotary control knobs, are likely to cause injuries to the driver and/or passengers of the vehicle, particularly during sudden decelerations of this latter.
  • rotary control knobs, push-buttons and station indicators make the presence of a conventional car radio easily detectable by possible thieves.
  • the invention remedies the above-mentioned drawbacks by replacing the mechanical control and indication elements by static, entirely electronic, elements.
  • the invention provides a broadcast receiver with control devices entirely free of mechanical elements.
  • control device of this receiver is adapted so that the front face or facade thereof accessible to the user is free of appreciable projections or unevennesses.
  • this front face presents a substantially smooth and opaque appearance.
  • the front face comprises a plate of predetermined thickness, made from a transparent insulating material which is tinted, so as to ensure the opacity thereof when the receiver is inoperative and so as to attenuate the light from the indicator lamps which light it up from inside, when the receiver has been switched on.
  • the plate On its face turned towards the inside of the case of the receiver, the plate comprises several so-called sensitive zones, covered respectively with layers of a conducting material and insulated from each other so as to form respectively control contacts by capacitive proximity effect, which are actuated by bringing a part of the body of the user close thereto, such for example as a hand or a finger, and which are known per se.
  • the conducting layer of each key is connected to one of the terminals of the reaction winding of a transistor oscillator whose collector is connected to a parallel resonant circuit and which begins to oscillate when a part of the body of the user is capacitively coupled to this layer.
  • the wave delivered by the oscillator is transmitted through a rectifying circuit to at least one flip-flop so that, for example, the transition corresponding to the starting up of the oscillator controls the switching thereof to a predetermined state on condition that is was previously in a state complementary to this latter.
  • the rectangular signal delivered by the rectifier during oscillation of the oscillator due to the prolonged presence of a finger of the user in the vicinity thereof is applied to at least one coincidence logic gate (of the "AND” or "NAND” type) either to let through recurrent pulses from an incorporated clock, or to close a feedback loop of an astable multivibrator generating other recurrent pulses, during the duration of this signal.
  • the tuning voltages of these diodes are provided by an automatic search device comprising a clock delivering recurrent rectangular signals, another coincidence gate controlled by another flip-flop whose switching to a state enabling the gate is controlled by one of the keys and whose switching from this state to its complementary state, controlling disabling of the gate, is controlled by a pulse or transition from the receiver circuit, indicating the reception of a carrier wave of an amplitude greater than a predetermined threshold, a binary counter whose clock input is fed by the other gate and a digital to analog converter in the form of a resistance network, fed by the parallel outputs of the counter and delivering a staircase voltage wave while this other gate is enabled.
  • FIG. 1 is a front view of a first embodiment of the facade or front face of the inoperative receiver in accordance with the invention.
  • FIG. 2 is a perspective view of the case of the receiver showing a second embodiment of the facade when it is in the operating state;
  • FIG. 3 is a schematic diagram of one embodiment of the entirely electronic control device for such a "car radio" receiver.
  • FIG. 1 there is shown at 1 the facade or front face of the "car radio" receiver which is mounted on the dashboard of the motor vehicle so that it is substantially flush with the surface of this dashboard or, possibly, placed in a shallow cavity thereof.
  • a rectangular frame 2 which serves for retaining the facade 1 in position, for example, by means of a groove (not shown) formed in its inner periphery.
  • the rear of frame 2 is firmly secured to the circumference of the parallelepipedic shaped metal case (not shown) of the receiver.
  • frame 2 may be advantageous to form frame 2 from a plastic material having a certain elasticity for relatively easy removal from facade 1, which, by uncovering the front face (not shown) of the case of the receiver, covered thereby, allows any incandescent signalling and lighting lamp to be replaced.
  • the facade 1 forms the front face of a rigid rectangular plate 3 made from a tinted insulating material, that is to say from a transparent plastic (resin) material in which is mixed a dye of a relatively dark tint. This attenuates the light coming from the above-mentioned lamps so that the driver is not disturbed or dazzled and gives it an opaque appearance when it is solely illuminated from the outside.
  • the transparent material used is, preferably, an acrylic resin such as polymethyl methacrylate.
  • the facade 1 may bear the mark of the manufacturer or of the distributor 4 which may be obtained, for example, by metalizing or painting the front face or the rear face of the tinted plate. In the second case, it must be lit up from behind to become visible.
  • FIG. 1 there is shown in broken lines four sensitive zones or proximity effect or capacitive coupling keys designated respectively by 5, 6, 7 and 8.
  • the thickness of plate 3 must be reduced by hollows (cavities) formed preferably in its rear face and, possibly, in its front face or in both, either during casting or molding of the part or subsequently by machining.
  • the four sensitive zones or keys 5-8 (sunken) shown have a substantially square shape end are spaced apart equidistantly along an axis parallel to the longitudinal axis of the rectangular plate 3. They may also be rectangular, circular or elliptic, or have any other geometrical shape.
  • the respective rear faces of these thinned down zones are metallized that is to say each covered over the major part of its surface with a metal layer which, if it is opaque, comprises several gaps in the form of symbols (+,-), or letters (R,A) so that they are made visible by backlighting, provided by lamps disposed behind these zones which are moreover defined by opaque dividing walls projecting from the front face of the case so that each one illuminates only a single key.
  • These letters and symbols indicate the functions (stop, search, reduction or increase of the sound volume) which each of the keys 5 to 8 controls.
  • the metalized surfaces are insulated from each other.
  • the zones which are not intended to be illuminated by transparence may be covered with an opaque paint layer.
  • the symbol or letter indicating the function may be opaque.
  • FIG. 2 there is shown in perspective the parallelepipedic case 9 containing the reception and control circuits whose front face is covered with a rectangular plate 3 according to a second embodiment of the invention.
  • case 9 The rear, bottom top and side walls of case 9 are made from a conducting metal (metal sheet) so as to form a screen against spurious signals coming from the ignition and/or other interference from inside or outside the vehicle. It may be advantageous to provide it with a removable metal cover 10a for allowing access to the electronic circuits for possible repairing thereof.
  • a conducting metal metal sheet
  • Plate 3 is provided over the upper part of its front face with two super posed display zones 10 and 11 having respectively graduations (vertical lines) and aligned numbers, as well as at the end of each line thereof, the indication of the units (MHz and kHz) relating to these numbers.
  • each display zone comprises a designation of the wave range received (LW,MW or AM and FM).
  • LW,MW or AM and FM the wave range received
  • the two display zones 10 and 11 are defined inwardly by opaque projections so that they are illuminated alternately depending on the wave-range received.
  • a linear ramp formed by (sixteen) juxtaposed electroluminescent or light-emitting diodes (LED) 12 which indicate approximately, for example, by the number of adjacent diodes illuminated, that is to say by the length of the visible line that they form, the tuning frequency of the input or radio-frequency circuit of the receiver.
  • LED light-emitting diodes
  • These light-emitting diodes are only available in certain colors, it is then preferably to choose the same color for the dye of the plate 3 so as not to attenuate too much the light emitted thereby.
  • plate 3 In one of the upper corners of plate 3 (here on the left-hand side), it is possible to represent by means of a double seven-segment display 13 symbols for identifying certain popular broadcasting stations or the wave-range received. These stations are characterized by their respective broadcasting frequencies, so the tuning voltage may be compared analogically with a reference voltage proper to each station, or the digital indication supplied by a frequency or tuning voltage synthesizer which will be described further on, may be used, by comparing some of the most significant digits thereof with those of a stored number corresponding to the station or by using a decoder/demultiplexer. Plate 3 may be firmly interlocked with the front periphery of case 9 by bonding for example.
  • the front face of this latter which carries the signalling and lighting lamp sockets, the linear ramp of light-emitting diodes 12 and the double display 13 is integral with the chassis (not shown) which should be removable from the rear.
  • the electrical connection between the metalized zones of keys 5 to 8 and the electronic circuits carried by the chassis may then be formed by means of spring blade contacts.
  • FIG. 3 is the schematic diagram of an embodiment of an entirely electronic control device of the "car radio" receiver according to the invention.
  • each of the sensitive (proximity effect) keys 5, 6, 7 and 8 is connected to the control input of an oscillator 15, 16, 17 and 18, the first of which is shown schematically.
  • the receiver comprises a positive supply terminal 19 which is connected to the positive pole of the battery B whose negative pole is connected to the metal chassis of the vehicle, forming ground.
  • This positive supply terminal 19 is connected through a resistor 20 to the positive supply input of oscillator 15, this positive supply input being coupled to its negative supply input, which is grounded, through a capacitor 21 which forms a decoupling circuit with the resistor 20.
  • the positive supply input of oscillator 15 is further connected, through a parallel resistor 150 and capacitor 151 circuit to the emitter of a PNP type bipolar transistor 152 and through a resistor 153 to the base thereof.
  • This base is further connected through a resistor 154 to the negative supply input of oscillator 15, to which is also connected the collector of transistor 152 through a parallel resonant circuit formed by an inductance 155 and a capacitor 156.
  • This inductance 155 is tightly magnetically coupled to a feedback winding 157 one of whose terminals is connected to the base of transistor 152 and whose other terminal is connected to the control input 158 of oscillator 15.
  • This control input 158 is connected to the metallized zone of the rear face of plate 3 which forms the key 5 designated by the latter "A" (indicating "stop").
  • Resistors 153 and 154 connected in series between the positive and negative supply inputs of oscillator 15, bias the base of the PNP transistor 152 so that it is permanently turned on.
  • winding 157 supplies no current to the base of transistor 152. This latter starts being oscillating only when a part of the body of the user, such as a hand or a finger, becomes capacitively coupled to the metallized zone 5 by coming sufficiently close thereto. The feedback then becomes sufficient for the oscillator to begin to oscillate and to supply at its output 159, formed by the collector of transistor 152, a voltage wave having a frequency determined by the values of inductance 155 and capacitor 156 forming the resonant collector circuit thereof. This frequency is, for example, chose in the ultrasonic frequency range. This oscillation continues until the part of the body is removed sufficiently far away from key 5.
  • the output 159 of oscillator 15 is connected to the input of a rectifier circuit 25 comprising a diode 25 whose anode forms the input and whose cathode the output of this circuit 25.
  • This cathode is furthermore connected to ground through a circuit formed of a parallel-connected resistor 251 and capacitor 252 whose time constant (RC) is chosen greater than three times the period of the wave delivered by oscillator 15.
  • the rectifier circuit 25 then delivers, in response to a wave train of limited duration corresponding to that of activation of key 5, a positive rectangular signal of substantially the same duration, whose rise and fall times are determined by this time constant.
  • the output of the detector circuit 25 is connected to the input of a first wired logic inverter stage 22, i.e. formed of discrete elements.
  • This input is connected through a series resistor 220 to the base of an NPN type bipolar transistor 221 whose emitter is grounded.
  • This resistor 220 limits the base current of this transistor 221 and thus the load connected to the terminals of the LC resonant circuit 155-156 of oscillator 15 during the positive half periods of its oscillation. It is however advantageous to connect a capacitor 222 between the base and the emitter of transistor 221, which results in further increasing the rise and fall times of the pulses whose leading and trailing edges it moreover delays.
  • the collector of transistor 221, which forms the output of this inverter stage 222, is connected through a resistor 223 to the positive output of an integrated voltage regulator 24 whose positive input is connected to the positive supply terminal 19 of the receiver.
  • the negative input and output of this regulator 24 are both grounded.
  • the voltage regulator 24 whose positive input and output are moreover respectively decoupled to ground through two capacitors 29 and 30, is intended to supply the whole of the electronic control device of the receiver with the exception of oscillators 15 to 18, the supply switch and its transistorized control stage. Since its input voltage is that of the battery B (12 V), its output voltage is chosen, more especially, with a view to supplying with power the integrated logic circuits (for example, of 5 volts) which it comprises. In order to keep the current consumption during standby of the integrated (digital logic circuit) is as low as possible, those of the type generally called "CMOS" are preferably chosen; this abbreviation of American origin means that they are essentially formed from insulated gate field effect transistors (MOS), with complementary symmetry.
  • MOS insulated gate field effect transistors
  • the output of the inverter stage 22, that is to say the collector of the NPN transistor 221, is connected to the clock input T of a "JK" type flip-flop 31 comprising an asynchronous reset input R and inputs designated by J and K which are respectively coupled (relooped) to its complementary output Q and to its output Q.
  • This latter is further connected to the base of an NPN type bipolar transistor 32 through a base current limiting resistor 33.
  • the emitter of this transistor 32 is connected to ground and its collector is connected to the positive supply terminal 19 through a resistor 34 and to the base of another NPN bipolar transistor 35 whose collector is also connected to terminal 19 and whose emitter is connected to the positive output supply terminal 36 which supplies various other circuits of the receiver as well as the signalling and lighting lamps thereof.
  • the supply switch is thus formed by transistor 35 which must be capable of conducting in the saturated state a current of high intensity and resistor 34, which is at the same time the resistor for biasing the base of transistor 35, and the collector resistor of transistor 32 forms with this latter the control stage of this switch.
  • oscillator 15 begins to oscillate and rectifier 25 delivers a positive rectangular signal causing saturation of transistor 221 of the inverter stage 22, whose collector then supplies to the clock input T of the "JK" flip-flop 31 a low state (or “zero"). Because of the respective relooping of the Q and Q outputs to the J and K inputs these latter have respectively received during the high state previously applied to input T, a low state and a high state.
  • the transistion between the high state and the low state at input T causes flip-flop 31 to switch to its low or zero state (appearing at the Q output) which causes the control transistor 32 to be turned off so that the switch transistor 33 biased at its base by resistor 34 becomes saturated and supplies the receiver some of whose lamps light up, particularly those lighting the sensitive keys 5 to 8.
  • the other sensitive keys 6, 7 and 8 are also respectively connected to the control inputs of other associated oscillators 16, 17 and 18 similar to the first one 15, whose outputs feed respectively rectifier circuits 26, 27 and 28, also similar to the first one 25.
  • the outputs of the other rectifier circuits 26 to 28 are respectively connected to three inputs of a wired "OR" circuit 37 comprising three diodes 38, 39 and 40 whose cathodes, connected together, form the output thereof.
  • This output of the "OR” circuit 37 is connected to the base of a PNP bipolar transistor 41 through a resistor 42. This base is further connected to ground through another resistor 43.
  • the collector of transistor 41 is connected to ground and its emitter is on the one hand connected to the reset input R of the "JK" flip-flop 31 and, on the other hand, to the output of the voltage regulator 24 through a resistor 44.
  • the stage formed of elements 42 to 44 forms a non-inverting buffer stage.
  • transistor 41 When none of the other sensitive keys 6, 7 and 8 is activated by the proximity of a part of the body of the user, transistor 41 is saturated because its base is connected to its collector through the resistor 43. The reset input R of flip-flop 31 then receives a low state which has no influence on its switching by signals applied to its other inputs T, J and K.
  • one or more other rectifier circuits 26 to 28 supply positive rectangular signals which enable one or more diodes 38 to 40 of the "OR" circuit 37 so as to cause a current to flow through the series resistors 42 and 43.
  • the amplitude of the wave supplied by at least one of the other oscillators 16 to 18 is such that the amplitude of the rectangular signal supplied by one of the other rectifier circuits 26 to 28 exceeds the regulated voltage provided by regulator 24 multiplied by the inverse of the division ratio of the voltage divider formed by the series resistors 42 and 43, transistor 41 is turned off and the reset input R receives temporarily a high state. This forms a rectangular signal applied to the input R which causes flip-flop 31 to be reset, if it was not already there. As before, the zero state at the Q output causes transistor 32 to be turned off and transistor 35 to be saturated.
  • This arrangement comprising the "OR" circuit 37, transistors 41 and resistors 42 to 44 allows switching on of the receiver to be controlled by activation of any sensitive key 5 to 8 or of several of them and then the desired function (station search, volume control range switching) to be controlled by activating the appropriate key which are then all made visible by illumination from behind.
  • the clock input T is then temporarily grounded and controls the switching of flip-flop 31 to its high state which in its turn causes the control transistor 32 to be saturated and the switch transistor 35 to be turned off.
  • the circuits of the receiver except for the control device are then no longer supplied with power and the signalling and lighting lamps also go out so that facade 1 resumes its opaque appearance.
  • the automatic search function for broadcasting stations is controlled by the second sensitive key 6 designated by the symbol "R". Activation thereof establishes the feedback of the second oscillator 16 whose output wave rectified by the second rectifier circuit 26 forms a positive rectangular signal.
  • the output of the second rectifier circuit 26 is connected to the input of a second inverter 45 similar to the first one 22, which comprises a NPN bipolar transistor 450 whose base is connected through a current limiting resistor 451 to this output, whose emitter is grounded and whose collector is connected through a collector resistor 452 to the output of the voltage regulator 24.
  • the collector of transistor 450 is further connected to a low state set input S of a first RS bistable latch formed of two NAND gates 460 and 461 which are cross coupled.
  • the output of the first NAND gate 460 is connected to one of the inputs of the second one 461 whose other input forms the low state reset input R.
  • the output of the second gate 461 is connected to that one of the inputs of the first gate 460 which is not connected to the collector of transistor 450.
  • the outputs of the two NAND gates 460 and 461 form respectively the Q output and the complementary Q output of latch 46.
  • the S input receives a high state through resistor 452 and the R input connected to an element 47 (shown with a broken line) of the receiver, supplied by terminal 36 which is insulated by the turned off switch transistor 35, receives a low state. Consequently, the first RS latch 46 is at the zero state, that is to say that its Q output supplies a low state and its complementary Q output a high state.
  • element 47 supplied with power through terminal 36 also delivers a high state to input R which has no effect on the state of the RS latch 46.
  • Activation of the second key (“R") 6 causes, in the way described above in connection with the first one 5, temporary saturation of transistor 450 which thus supplies a low state to the S input of the first RS latch 46 so that the first gate 460 then supplies a high state causing the output of the second gate 461 to pass to the low state.
  • RS bistable latch by means of two cross-coupled NOR gates, whose switching is then controlled by high states.
  • the Q output of the first RS latch 46 is connected to one of the inputs of another NAND gate 48 whose other input is connected to the output of a first astable multivibrator 49 delivering square or rectangular signals (pulses) at a first predetermined frequency.
  • the first astable multivibrator 49 is preferably formed from several integrated logic inverters or gates of the same type ("CMOS") as the other digital circuits which the control device comprises.
  • CMOS complementary metal-oxide-semiconductor
  • FIG. 3 it has been shown comprising three ring connected inverters formed from three NAND gates, each of which has all its inputs connected in parallel and one of which comprises a feedback capacitor connecting its output to its input and which makes it an integrator stage.
  • the integrator provides a triangular waveform which, applied to the next stage, uses the switching threshold thereof to supply recurrent rectangular signals, whose frequency depends on the capacity of the capacitor.
  • An astable multivibrator formed by a ring of three inverters has been described in the article by Faldman appearing on page 59 of the U.S. review Electronics of Aug. 2, 1971.
  • Counter 50 When one of the inputs of the NAND gate 48 receives from latch 46 a high state and its other input receives from the multivibrator 49 a pulse or square wave sigal, it delivers at its output connected to the clock input H of a first binary counter 50, a complementary signal (in phase opposition) with respect to the one at the input.
  • Counter 50 is of the type in which each stage (“JK" flip-flop) comprises a parallel output (Qo . . . Qn). It may be formed from several four-bit binary counters connected in cascade, that is to say that the parallel output of the last stage (O3) of the preceding counter is connected to the clock input of the following counter.
  • CMOS counters are connected in parallel and, possibly, connected to a signal source for resetting which would occur whenever the receiver was stopped (or started up) or to ground (a 12 bit CMOS counter is of the 4040 type, for example).
  • the parallel outputs of counter 50 are respectively connected, possibly through separator or buffer stages, to the inputs of a digital-to-analog converter 51, such as a so-called “ladder” or “R-2R” resistance network, which is well known.
  • the output of the converter network 51 delivers at the output 52 of the control device, possibly decoupled to ground through a capacitor 53, a staircase shaped voltage wave which varies by a step at each pulse applied to the clock input H of counter 50. The magnitude of this step depends, on the one hand, on the number of stages of counter 50 and, on the other, on the supply voltage thereof (or on that of the buffers).
  • This output voltage which forms the tuning voltage reversely biasing the variable capacitance diodes of the tunable resonant circuits of the receiver will then vary gradually between a low positive value close to zero and substantially this supply voltage of counter 50 or of the multiple buffer if such be the case.
  • the assembly formed by the multivibrator 49, counter 50 and converter network 51 forms a simplified voltage synthesizer which forms the automatic search circuit of the receiver.
  • variable capacitance diodes must, especially in so far as the reception of long waves are connected (from 150 to 300 kilohertz), form capacities going from a few tens of picofarads to about 500 pF (such as those of the type BB212, for example), for tuning voltages varying between a few hundredths and ten volts.
  • Stopping of the search is controlled automatically by a negative rectangular signal (pulse) delivered by element 47 of the receiver to the low state reset input R of the first RS latch 46.
  • This element 47 is connected, on the one hand, to the automatic gain control circuit (AGC) to receive therefrom a positive transition, when the local oscillator supplies a frequency which allows an amplitude modulated carrier wave to be picked up (in the long or medium wave range) and, on the other hand, to the automatic frequency control circuit (AFC) which also supplies a positive transition when the local oscillator has tuned in to a frequency modulated carrier.
  • AGC automatic gain control circuit
  • stage such as a monostable flip-flop capable of supplying, in response to this positive transition, a negative pulse whose leading edge is formed by a transition between a high state and a low state and whose trailing edge is a transition complementary to the preceding one.
  • This negative pulse controls the resetting of RS latch 46 so that gate 48 one input of which is connected to the Q output of this latter and whose other input is connected to the output of multivibrator 49 permanently supplies a high state which stops the count of counter 50 and, consequently, the automatic search.
  • some parallel outputs of the counter 50 may be connected to decoders formed from AND or NAND gates which are combined together, so that each of them supplies a high state for a predetermined binary word applied to its inputs and a low state in response to all the others.
  • This high state may control a double alphanumeric character generator whose outputs are connected in a known way to the double seven-segment display.
  • the double display supplies the light symbol of this latter by means of two predetermined letters or a letter and a number or any other symbol, when the counter 50 stops on this number.
  • the other two sensitive keys 7 and 8 have a dual function, on the one hand when the automatic search is stopped, to increase or reduce the sound volume and, on the other hand, during searching, to switch the frequency ranges between the long waves (LW) or medium waves (MW or AM) and frequency modulation (FM) or the VHF band (from 88 to 108 MHz).
  • LW long waves
  • MW or AM medium waves
  • FM frequency modulation
  • VHF VHF band
  • the Q output of the first RS latch 46 is connected to respective first inputs of two NAND gates 54 and 55 with two inputs whose second inputs are respectively connected to the outputs of the third 27 and fourth 28 rectifier circuits.
  • the output of the first one 54 of these two gates 54, 55 is connected to the set input S of a second RS bistable latch 56, similar to the first one 46, formed of two cross-coupled NAND gates.
  • the output of the second one 55 of these gates 54,55 is connected to the reset input R of the second RS latch 56.
  • the Q output of this latter is connected to the input controlling the range switching 57 of the receiver, which controls electronic switches (with diodes for example).
  • the third rectifier circuit 27 which is associated therewith supplies a positive rectangular signal, in response to which gate 57 delivers a negative pulse which corresponds to the temporary application of a low state to input S.
  • This latter controls the setting to "one" of the second RS latch 56 whose Q output delivers a high state controlling the range switch so that the tunable resonant circuits of the receiver operate in the VHF band and so that the input of the low (or audio-) frequency amplifier is connected to the frequency discriminator or demodulator.
  • the fourth rectifier circuit 28 supplies a signal which causes the output of gate 55 connected to the R input of the second RS latch 56 to pass temporarily to the low state thus causing resetting of this latter. Its Q output then supplying a low state which controls the switching of the tunable resonant circuits so that they may receive signals in the long or medium wave (LW or AM) range and of the input of the low frequency amplifier so that it is connected to the envelope detector or amplitude demodulator.
  • LW or AM long or medium wave
  • the zero state of the first RS latch 46 allows, on the other hand, the sound volume to be controlled by activation of one or other of the sensitive keys 7 ("+") and 8 ("-").
  • the complementary Q output which then delivers a high state, is here connected to one of the inputs of a three-input NAND gate 58 whose other two inputs are respectively connected to the outputs of two other NAND gates 59 and 60 having two inputs each.
  • the first inputs of gates 59 and 60 are respectively connected to the outputs of the third 27 and fourth 28 rectifier circuits which are respectively associated with keys "+", 7 and "-", 8.
  • the second respective inputs of gates 59 and 60 are connected in parallel to the output of an integrator stage comprising an integrated logic inverter stage formed from an NAND gate 61 all of whose inputs are connected in parallel, and a feedback capacitor 62 connecting the output of inverter 61 to its input.
  • the assembly thus formed constitutes a second astable multivibrator 63 with a selective routing function on two outputs 64 and 65, controlled by the latter two sensitive keys 7 and 8.
  • the output of this gate 58 supplies a zero to the input of inverter 61.
  • the output of inverter 61 connected to one of the plates of capacitor 62 whose other plate is then grounded, ensures gradual charging thereof from the time when the gate 58 begins to supply a low state, until this output reaches a high state. This increasing voltage is applied in parallel to the second respective inputs of both gates 59 and 60 until a switching threshold is exceeded.
  • this gate As soon as the decreasing voltage has become less than another switching threshold (less than the preceding one because of hysteresis), the output of this gate (59 or 60) provides a high state which causes that of gate 58 to pass to the low state which in its turn causes recharging of capacitor 62.
  • circuit 63 may be formed from an astable multivibrator with three ring logic inverters (see element 49) one of whose inverters is replaced by NAND gate having two inputs one of which is connected to the output of the upstream inverter and the other of which is connected to the complementary Q of the first RS latch 46.
  • This multivibrator would then operate whenever the search device stops on a transmitting station.
  • the routing may then be provided by two other NAND gates whose first inputs would be connected in parallel to the output of this astable multivibrator and whose second inputs would be resepectively connected to the third 27 and fourth 28 rectifier circuit.
  • Such a circuit would comprise an additional inverter element or gate.
  • the outputs 64 and 65 of circuit 63 are connected respectively to the up-counting U and down-counting D inputs of a snychronous binary up-and-down counter 66 with two clock inputs (U and D), which further comprises as many asynchronous data inputs (not shown) and parallel outputs (Qo . . . Qn) as stages (JK flip-flops), as well as respective load input L and reset R inputs and respective borrow B and carry C outputs.
  • the data inputs are here connected to ground and the load L and reset R inputs are connected together to the borrow output B.
  • the parallel outputs of the up-and-down counter 66 are connected to the parallel inputs of a second ladder converter "R-2R" network 67 (of similar type as the first one 51) whose output connected to the control input of the sound volume 68 (possibly decoupled through a capacitor 69), supplies a staircase voltage, increasing when the square waves are supplied to the up-count (U) input or decreasing when it is the down-count (D) input which receives them.
  • each voltage increment (or decrement) is substantially equal to a sixteenth of the supply voltage thereof. It is possible to connect in cascade several of these up-down counters in a conventional way to reduce the increment. It is then necessary to increase the frequency of the second astable multivibrator 63 by reducing the capacity of capacitor 62.
  • the voltage supplied by the output of the converter network 67 to the volume control input 68 must be applied to the control input of an element whose gain is controllable by a voltage.
  • an element may be formed by a potentiometric circuit (a resistive voltage divider with variable division factor) comprising one or more resistors whose value varies as a function of a DC voltage.
  • a variable resistance may be formed by one or more insulated gate field effect transistors (IGFET or MOSFET).
  • the two functions of each of them may be indicated by transparency by means of two symbols or abbreviations disposed respectively in two diagonally opposite quadrants of the key and illuminated by two separate lamps controlled respectively by signals present at the Q and Q outputs of the first RS latch 46.
  • FM frequency modulation
  • LW long wave
  • the tuning indicator is formed by the light-emitting diode ramp (12 of FIG. 2) which comprises sixteen in alignment. These diodes are respectively connected to the sixteen outputs of a four to sixteen channel decoder/demultiplexer (not shown) (such as type 54154 or 74154 in TTL). The four inputs of this decoder are connected respectively to the four parallel outputs of counter 50 which supply the four most significant digits of the output word thereof.
  • the dual seven-segment display (13 in FIG. 2) is also controlled from words supplied by these four parallel outputs supplying the most significant digits, which are either decoded, or compared with stored four-bit words corresponding to frequencies close to those of popular stations in the long wave range.
  • a decoder/demultiplexer provides an active state at one of the chosen outputs and the Q output of the second RS latch 56 indicates that the long wave range is being received (by a zero)
  • two generators of previously chosen alphanumeric characters are activated so as to display two light symbols. If none of these outputs is active, a double character generator causes the symbol "LW" to be displayed.
  • another double character generator controlled by the high state at the Q output of the second RS latch 56 causes the symbol "FM" to be displayed.
  • the output state of this latch 56 also controls the alternate lighting of zones 10 and 11 of FIG. 1.
  • the invention is in no wise limited to the abovedescribed embodiments, but it comprises all the technical equivalents able to fulfil the same functions by other means known per se. It is, for example, possible to replace the second RS latch 56 controlling range switching by a JK flip-flop cross-coupled and controlled at its clock input T by an additional key.
  • the bipolar transistors may, on the other hand, be replaced by field effect transistors and certain NAND gates by AND gates.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Circuits Of Receivers In General (AREA)
  • Structure Of Receivers (AREA)
US06/446,891 1981-12-09 1982-12-06 Broadcast receiver comprising an entirely electronic control device Expired - Lifetime US4495651A (en)

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FR8123029A FR2517903B1 (fr) 1981-12-09 1981-12-09 Recepteur de radiophonie a dispositif de commande entierement electronique
FR8123029 1981-12-09

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EP (1) EP0081424B1 (de)
JP (2) JPS58175325A (de)
DE (1) DE3273599D1 (de)
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Cited By (14)

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US4639881A (en) * 1982-06-01 1987-01-27 M.A.N.-Roland Druckmaschinen Ag. Data input unit and method for printing machines
US4899138A (en) * 1987-01-10 1990-02-06 Pioneer Electronic Corporation Touch panel control device with touch time and finger direction discrimination
US4924222A (en) * 1984-02-16 1990-05-08 Antikidis Jean Pierre Capacitive keyboard operable through a thick dielectric wall
US4952918A (en) * 1987-05-11 1990-08-28 Toshiba Kikai Kabushiki Kaisha Display and input apparatus
US4954967A (en) * 1983-09-21 1990-09-04 Canon Kabushiki Kaisha Information processing apparatus
GB2260195A (en) * 1991-09-27 1993-04-07 Carters Capacitative proximity switch controlled apparatus
WO1999041656A1 (en) * 1998-02-16 1999-08-19 Tetra Laval Holdings & Finance S.A. Touch-sensitive operating panel system
DE19840461A1 (de) * 1998-05-26 1999-12-02 Volkswagen Ag Verfahren und Einrichtung zum Betrieb eines Rundfunkgerätes in einem Kraftfahrzeug
US6151515A (en) * 1994-09-14 2000-11-21 Mitsubishi Wireless Communications Inc. 7, 8 segment display for mobile radio telephone
US20050073354A1 (en) * 2003-10-01 2005-04-07 International Business Machines Corporation Voltage divider for integrated circuits
US20050090946A1 (en) * 2003-10-28 2005-04-28 Carl Pickering Vehicle equipped with a control system for operating one or more vehicle sub-system
US20050133347A1 (en) * 2003-12-22 2005-06-23 Hein David A. Integrated center stack switch bank for motor vehicle
US7683709B1 (en) 2008-06-05 2010-03-23 The United States Of America As Represented By The Secretary Of The Navy Low frequency power amplifier employing high frequency magnetic components
CN106206489A (zh) * 2015-05-28 2016-12-07 矢崎总业株式会社 用于连接器模块的散热结构

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FR2517903B1 (fr) * 1981-12-09 1986-01-17 Elbeuf Electro Indle Recepteur de radiophonie a dispositif de commande entierement electronique
DE3584092D1 (de) * 1984-02-16 1991-10-17 Antikidis Jean Pierre Verfahren zum abfragen einer kapazitiven tastatur und tastatur mit abfragmitteln gemaess diesem verfahren.
FR2577365B2 (fr) * 1985-02-11 1994-08-26 Antikidis Jean Pierre Procede pour scruter un clavier a touches capacitives et un clavier ass
DE3836572A1 (de) * 1988-10-27 1990-05-03 Bosch Gmbh Robert Frontblende fuer ein radio
ES2379890T3 (es) * 2007-10-08 2012-05-04 Whirlpool Corporation Interruptor táctil capacitivo y electrodoméstico provisto con tal interruptor
EP2048780B1 (de) * 2007-10-08 2012-02-29 Whirlpool Corporation Kapazitiver Berührungsschalter und Haushaltsgerät damit
JP6249992B2 (ja) * 2015-06-11 2017-12-20 矢崎総業株式会社 コネクタモジュールの放熱構造

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Cited By (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4639881A (en) * 1982-06-01 1987-01-27 M.A.N.-Roland Druckmaschinen Ag. Data input unit and method for printing machines
US4954967A (en) * 1983-09-21 1990-09-04 Canon Kabushiki Kaisha Information processing apparatus
US4924222A (en) * 1984-02-16 1990-05-08 Antikidis Jean Pierre Capacitive keyboard operable through a thick dielectric wall
US4899138A (en) * 1987-01-10 1990-02-06 Pioneer Electronic Corporation Touch panel control device with touch time and finger direction discrimination
US4952918A (en) * 1987-05-11 1990-08-28 Toshiba Kikai Kabushiki Kaisha Display and input apparatus
GB2260195A (en) * 1991-09-27 1993-04-07 Carters Capacitative proximity switch controlled apparatus
US6151515A (en) * 1994-09-14 2000-11-21 Mitsubishi Wireless Communications Inc. 7, 8 segment display for mobile radio telephone
WO1999041656A1 (en) * 1998-02-16 1999-08-19 Tetra Laval Holdings & Finance S.A. Touch-sensitive operating panel system
DE19840461A1 (de) * 1998-05-26 1999-12-02 Volkswagen Ag Verfahren und Einrichtung zum Betrieb eines Rundfunkgerätes in einem Kraftfahrzeug
US7061308B2 (en) 2003-10-01 2006-06-13 International Business Machines Corporation Voltage divider for integrated circuits
US20050073354A1 (en) * 2003-10-01 2005-04-07 International Business Machines Corporation Voltage divider for integrated circuits
US20050090946A1 (en) * 2003-10-28 2005-04-28 Carl Pickering Vehicle equipped with a control system for operating one or more vehicle sub-system
US7260454B2 (en) 2003-10-28 2007-08-21 Jaguar Cars Limited Vehicle equipped with a control system for operating one or more vehicle sub-system
GB2409578A (en) * 2003-12-22 2005-06-29 Lear Corp Vehicle interior switch bank with non-mechanical switch
GB2409578B (en) * 2003-12-22 2006-05-03 Lear Corp Integrated center stack switch bank for motor vehicle
US20050133347A1 (en) * 2003-12-22 2005-06-23 Hein David A. Integrated center stack switch bank for motor vehicle
US7180017B2 (en) 2003-12-22 2007-02-20 Lear Corporation Integrated center stack switch bank for motor vehicle
US7683709B1 (en) 2008-06-05 2010-03-23 The United States Of America As Represented By The Secretary Of The Navy Low frequency power amplifier employing high frequency magnetic components
CN106206489A (zh) * 2015-05-28 2016-12-07 矢崎总业株式会社 用于连接器模块的散热结构
US10231348B2 (en) 2015-05-28 2019-03-12 Yazaki Corporation Heat dissipation structure for connector module
CN106206489B (zh) * 2015-05-28 2019-11-29 矢崎总业株式会社 用于连接器模块的散热结构

Also Published As

Publication number Publication date
FR2517903A1 (fr) 1983-06-10
JP2807385B2 (ja) 1998-10-08
EP0081424B1 (de) 1986-10-01
JPH0544208B2 (de) 1993-07-05
JPH07235883A (ja) 1995-09-05
EP0081424A1 (de) 1983-06-15
FR2517903B1 (fr) 1986-01-17
JPS58175325A (ja) 1983-10-14
DE3273599D1 (en) 1986-11-06

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